Departamento de Química Biológica e Instituto de Química y Fisicoquímica Biológicas (IQUIFIB), Facultad de Farmacia y Bioquímica, Universidad de Buenos Aires, Buenos Aires, Argentina.
PLoS One. 2012;7(7):e41351. doi: 10.1371/journal.pone.0041351. Epub 2012 Jul 23.
Stings by insects from the Hymenoptera order are known to cause life-threatening allergic reactions and impair life quality. Despite the effectiveness of conventional vespid venom immunotherapy, more standardized and safer allergy vaccines are required and recombinant hypoallergenic variants are important clinical tools. Antigen 5 is a major allergen of vespid venoms and it was previously reported that Antigen 5 from Polybia scutellaris (Poly s 5) could be a hypoallergenic variant. In this work we assess the immunological behavior and allergenic activity of Poly s 5 in order to explore its suitability for specific immunotherapy. With this aim, recombinant Poly s 5 was expressed in Pichia pastoris and the presence of cross-reactive epitopes with Pol a 5, a known allergenic Antigen 5, was investigated both at the IgG and IgE levels, by ELISA assays and a basophil-mediator release assay respectively. A molecular model was also built to better understand the relationship between immunological and structural aspects. In mice, Poly s 5 induced IgG antibodies which cross-reacted with Pol a 5. However, Poly s 5 induced only minimal amounts of IgE and was a poor inducer of basophil-mediator release, even when the cells were sensitized with Pol a 5-specific IgE. Moreover, Poly s 5-specific serum showed a specific protective activity and was able to inhibit the Pol a 5-induced basophil degranulation. Structural analysis from the molecular model revealed that a few amino acid substitutions in the N-terminal region of Poly s 5 should lead to an alteration of the surface topography and electrostatic potential of the epitopes which could be responsible for its hypoallergenic behavior. These findings, taken as a whole, show that Poly s 5 is likely a naturally occurring hypoallergenic Antigen 5 variant.
膜翅目昆虫的蜇伤已知会引起危及生命的过敏反应,并降低生活质量。尽管传统的胡蜂毒液免疫疗法有效,但仍需要更标准化和更安全的过敏疫苗,而重组低变应原性变体则是重要的临床工具。抗原 5 是胡蜂毒液的主要过敏原,先前有报道称,来自 Polybia scutellaris(Polybia scutellaris)的抗原 5 可能是一种低变应原性变体。在这项工作中,我们评估了 Poly s 5 的免疫学行为和变应原活性,以探索其在特异性免疫治疗中的适用性。为此,我们在毕赤酵母中表达了重组 Poly s 5,并通过 ELISA 分析和嗜碱性粒细胞介质释放试验分别在 IgG 和 IgE 水平上研究了与已知过敏原抗原 5(Pol a 5)具有交叉反应表位的存在。还构建了一个分子模型,以更好地理解免疫学和结构方面之间的关系。在小鼠中,Poly s 5 诱导了与 Pol a 5 发生交叉反应的 IgG 抗体。然而,Poly s 5 仅诱导了少量的 IgE,并且即使使用 Pol a 5 特异性 IgE 敏化细胞,它也是嗜碱性粒细胞介质释放的不良诱导剂。此外,Poly s 5 特异性血清显示出特异性的保护活性,并且能够抑制 Pol a 5 诱导的嗜碱性粒细胞脱颗粒作用。分子模型的结构分析表明,Poly s 5 的 N 末端区域的几个氨基酸取代应该导致表位的表面形貌和静电势发生改变,这可能是其低变应原性行为的原因。总的来说,这些发现表明 Poly s 5 可能是一种天然存在的低变应原性抗原 5 变体。
